Research on the Influence of Mining Height on the Movement Characteristics of Overlying Strata during Extremely Thick Coal Seam Fully Mechanized Sublevel Caving Mining

The study of the effects of mining height on overlying strata movement and underground pressure characteristics during extremely thick coal seam fully mechanized sublevel caving mining is very important for choosing the reasonable mining height and the support. Based on the geological setting and mi...

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Bibliographic Details
Published inAdvances in Civil Engineering Vol. 2021; no. 1
Main Authors Yang, Yongkang, Wei, Jie, Wang, Chenlong
Format Journal Article
LanguageEnglish
Published New York Hindawi 2021
Hindawi Limited
Wiley
Subjects
Caving
Civil engineering
Coal industry
Coal mines
Coal mining
Damage
Hydraulics
Laboratories
Mechanical properties
Mineral industry
Mining industry
Numerical analysis
Occupational health and safety
Physical simulation
Polynomials
Production capacity
Strata
Sublevel caving
Subsidence
Weighting
China
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Summary:The study of the effects of mining height on overlying strata movement and underground pressure characteristics during extremely thick coal seam fully mechanized sublevel caving mining is very important for choosing the reasonable mining height and the support. Based on the geological setting and mining conditions at the Xiegou Coal Mine, the results of the physical simulation test and the numerical simulation technology will be used. Some conclusions can be drawn as follows: (1) With the mining height increase, the top coal gradually converted from tensile failure to shear damage, and the coal wall gradually transformed from shear failure to tensile damage. (2) When the mining height is 7.5 m, the full-seam collapse distance, the immediate first weighting interval, and the main roof first weighting length are shorter than that when the mining height is 4m, and the periodic weighting length for the two mining heights is almost the same. (3) With mining height increase, the initial mining stage and the transition stage become shorter, and the production rates become better. (4) The law of the abutment pressure peak and the sphere of influence increase slightly, and the working resistance of support needed to be strengthened. (5) The subsidence quantity of the top coal in the control area increases along with the mining height in a quadratic polynomial way but decreases along with the initial supporting force in a negative logarithmic rule. (6) After assigning the subsidence, the regression relation between the initial supporting force and the mining height is a quadratic polynomial.
ISSN:1687-8086
1687-8094
DOI:10.1155/2021/6661581